WO2013021341A2 - Manufacturing method for a cooking range thermocouple and thermocouple obtained therewith - Google Patents

Manufacturing method for a cooking range thermocouple and thermocouple obtained therewith Download PDF

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Publication number
WO2013021341A2
WO2013021341A2 PCT/IB2012/054013 IB2012054013W WO2013021341A2 WO 2013021341 A2 WO2013021341 A2 WO 2013021341A2 IB 2012054013 W IB2012054013 W IB 2012054013W WO 2013021341 A2 WO2013021341 A2 WO 2013021341A2
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WO
WIPO (PCT)
Prior art keywords
tube length
side wall
tip
thermocouple
conducting
Prior art date
Application number
PCT/IB2012/054013
Other languages
French (fr)
Other versions
WO2013021341A3 (en
Inventor
Daniele Pianezze
Original Assignee
Illinois Tool Works Inc.
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Illinois Tool Works Inc. filed Critical Illinois Tool Works Inc.
Priority to EP12769721.7A priority Critical patent/EP2739907B1/en
Publication of WO2013021341A2 publication Critical patent/WO2013021341A2/en
Publication of WO2013021341A3 publication Critical patent/WO2013021341A3/en

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23NREGULATING OR CONTROLLING COMBUSTION
    • F23N5/00Systems for controlling combustion
    • F23N5/02Systems for controlling combustion using devices responsive to thermal changes or to thermal expansion of a medium
    • F23N5/10Systems for controlling combustion using devices responsive to thermal changes or to thermal expansion of a medium using thermocouples
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01KMEASURING TEMPERATURE; MEASURING QUANTITY OF HEAT; THERMALLY-SENSITIVE ELEMENTS NOT OTHERWISE PROVIDED FOR
    • G01K7/00Measuring temperature based on the use of electric or magnetic elements directly sensitive to heat ; Power supply therefor, e.g. using thermoelectric elements
    • G01K7/02Measuring temperature based on the use of electric or magnetic elements directly sensitive to heat ; Power supply therefor, e.g. using thermoelectric elements using thermoelectric elements, e.g. thermocouples
    • G01K7/04Measuring temperature based on the use of electric or magnetic elements directly sensitive to heat ; Power supply therefor, e.g. using thermoelectric elements using thermoelectric elements, e.g. thermocouples the object to be measured not forming one of the thermoelectric materials
    • G01K7/06Measuring temperature based on the use of electric or magnetic elements directly sensitive to heat ; Power supply therefor, e.g. using thermoelectric elements using thermoelectric elements, e.g. thermocouples the object to be measured not forming one of the thermoelectric materials the thermoelectric materials being arranged one within the other with the junction at one end exposed to the object, e.g. sheathed type
    • HELECTRICITY
    • H10SEMICONDUCTOR DEVICES; ELECTRIC SOLID-STATE DEVICES NOT OTHERWISE PROVIDED FOR
    • H10NELECTRIC SOLID-STATE DEVICES NOT OTHERWISE PROVIDED FOR
    • H10N10/00Thermoelectric devices comprising a junction of dissimilar materials, i.e. devices exhibiting Seebeck or Peltier effects
    • H10N10/01Manufacture or treatment
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01KMEASURING TEMPERATURE; MEASURING QUANTITY OF HEAT; THERMALLY-SENSITIVE ELEMENTS NOT OTHERWISE PROVIDED FOR
    • G01K2207/00Application of thermometers in household appliances
    • G01K2207/02Application of thermometers in household appliances for measuring food temperature
    • G01K2207/06Application of thermometers in household appliances for measuring food temperature for preparation purposes

Definitions

  • the present invention relates to a manufacturing method for a thermocouple intended for a cooking range as well as to the thermocouple obtained therewith.
  • Thermocouples of this type are normally installed on each burner of a cooking range and control the safety solenoid valve of the gas tap coupled to the burner.
  • thermocouples of the above type have an electrically conducting body made at numerical control by chip removal from an extruded tube or bar of a brass alloy, which body carries the so-called "hot junction" of the thermocouple at a first end, consisting of a tip made of a first metal alloy and intended to remain in use immersed in the flame generated by the burner, and of a conducting element made of a second metal alloy, welded to the tip at an end thereof and for the rest electrically insulated therefrom; a polarity wire is connected to such a second conducting element while a ground wire is connected to the body, which is mechanically and electrically connected to ' the tip.
  • An electro-motive force is thus generated at the terminals of the two wires, which keeps an electromagnet of the gas tap energized, thus allowing the gas supply to continue. If the flame goes off, the electro-motive force stops and the electromagnet interrupts the gas supply.
  • the conducting body of the thermocouple has a dual function: on the one hand, it serves for allowing the thermocouple to be mounted to the burner, and to this end it is usually provided with gripping means defined by a hexagonal-section portion of the body, and with a thread adapted to receive a fastening nut in use; on the other hand, the conducting body belongs to the chain of resistors arranged in series between the hot junction and the "cold" junction of the thermocouple, represented by the end of the two wires.
  • thermocouples currently available are relatively expensive, and complex and slow to be machined, because the body must be obtained by chip removal. Moreover, the body has a relatively large mass, which is required by its carrying functions, thus resulting in relatively long response times of the thermocouple, which are annoying for the user as, until the electro-motive force generated by the thermocouple is not sufficient for keeping the gas tap open, he/she must continue to press on the switch button.
  • US2114446 teaches a thermocouple having a body defined by a copper tube length, totally unsuitable to be used in current cooking ranges.
  • thermocouple having very short response times, being easy and quick to carry out and with considerable saving over the known methods.
  • thermocouple made by means of such method, which has short response times and low production costs .
  • the present invention thus relates to a method for manufacturing a thermocouple of a burner of a cooking range of a household appliance as defined in claim 1, as well as to a thermocouple for a burner of a cooking range as defined in claim 5.
  • the method of the invention provides for manufacturing the thermocouple body by first forming a tube length delimited by a side wall being less than 1 mm thick, from a flat metal sheet by plastically deforming and shearing the same metal sheet; and thereafter or at the same time, again by plastically deforming said side wall of the tube length, forming at least one annular axial abutment and, at a predetermined axial distance from the axial abutment, at least one annular groove obtained by plastically deforming the side wall towards the interior of the tube length.
  • thermocouple The hot junction of the thermocouple is then formed and it is axially inserted into the body so as to make the tip exit from a first end of the body, away from the annular abutment, and the tip is welded to the side wall of the body.
  • thermocouple of the type comprising an electrically conducting body fixable in use to a burner of a cooking range; a hot junction consisting of a tip made of a first conducting metal alloy, integrally carried by the body and by a conducting element made of a second metal alloy, accommodated within the tip, welded to a first end thereof; an insulating element interposed between the tip and the conducting element made of the second metal alloy; a polarity wire connected to the conducting element made of the second metal alloy; and a ground wire directly connected to the conducting body; wherein the conducting body consists of a tube length made of a metal sheet which has been plastically deformed and sheared, and which is delimited by a side wall being less than 1 mm thick on which at least one annular axial abutment has been obtained and, at a predetermined axial distance from the axial abutment, at least one annular groove has been obtained by plastically deforming the side wall towards the interior of the tube length.
  • the thermocouple further comprises an elastically deform
  • the construction of the body is greatly simplified and made faster and less expensive; moreover, a consistent reduction in the body mass is obtained, with consequent large reduction in the response times of the thermocouple.
  • the body is fastened to the burner without using nuts and threads, but in a quick manner, by sandwiching the mounting seat of the body on the burner between the annular axial abutment obtained on the body and the fastening clip, snappingly mounted in the at least one groove of the body.
  • the same body may be used for thermocouples intended to be mounted to different burner models, having seats of a different thickness for the thermocouple.
  • thermocouple made according to the invention
  • thermocouple in figure 1 shows an enlarged scale view of a detail of the thermocouple in figure 1;
  • figure 3 shows a further enlarged view of a component of the thermocouple in figure 1 at the end of one of the machining steps of the method according to the invention.
  • FIGS 4, 5 show a perspective view of a possible thermocouple variant according to the invention and a component thereof at the end of one of the machining steps of a variant of the method according to the invention.
  • reference numeral 1 indicates a thermocouple intended to equip, in a known manner, a burner of a cooking range of a household appliance (known and not shown for simplicity) .
  • Thermocouple 1 comprises an electrically conducting body 2 fixable in use to the burner of a cooking range; and a hot junction 3 consisting of a tip 4 made of a first conducting metal alloy, typically a NiCr9010 alloy (90% by weight nickel and 10% by weight chromium) , and of a conducting element 5 made of a second metal alloy, typically constantan (55-60% by weight copper and 40-45% by weight nickel) ; tip 4 is integrally carried by body 2 and the conducting element 5 is accommodated within tip 4, welded to a nose-shaped end 6 thereof.
  • a hot junction 3 consisting of a tip 4 made of a first conducting metal alloy, typically a NiCr9010 alloy (90% by weight nickel and 10% by weight chromium) , and of a conducting element 5 made of a second metal alloy, typically constantan (55-60% by weight copper and 40-45% by weight nickel) ; tip 4 is integrally carried by body 2 and the conducting element 5 is accommodated within tip 4, welded to a nose-shaped end 6
  • Thermocouple 1 further comprises an insulating element 7 interposed between tip 4 and the conducting element 5 made of the second metal alloy; a polarity wire 8 provided with an insulating sheath 9 and connected to an end 10 of the conducting element 5 opposite to the end 6 of the tip to which element 5 is mechanically and electrically coupled by welding; and a ground wire 11 directly connected to the conducting body 2.
  • the conducting body 2 consists of a tube length 12 made of a metal sheet, typically a brass sheet, which has been plastically deformed and sheared and which is delimited by a side wall 13.
  • Body 2 has a symmetry axis A and generally has an axial-symmetric shape and, according to ,a feature of the invention, the side wall 13 has a thickness S measured in the radial direction with respect to axis A always less than 1 mm and preferably in the range between 0.5 and 0.8 mm.
  • annular axial shoulder or abutment 15 and at least one annular groove 16 have been obtained on the side wall 13 by plastic deformation; annular groove 16 has ' been obtained at a predetermined axial distance from the axial abutment 15, by plastically deforming the side wall 13 towards the interior of the tube length 12.
  • the side wall 13 of the tube length 12 consists of an axial sequence of revolution surface segments of different outer diameter, in the example shown in figures 1-3, of two cylindrical segments 18 and 19; two of these surface segments, immediately adjacent to each other, in particular segments 18, of smaller diameter, and 19, of larger diameter, due to the difference in diameter define the annular axial shoulder or abutment 15.
  • segment 19 With its end away from shoulder 15, segment 19 defines a first end 20 of body 2 while, likewise, with its end away from shoulder 15, segment 18 defines a second .end 21 of body 2 provided with a through seat 22 for tip 4, a cylindrical side wall 23 of which is welded by a continuous or discontinuous bead 24 to the side wall 13.
  • Thermocouple 1 further comprises an elastically deformable cli 25 for fastening body 2 to a burner of the cooking range; clip 25 is adapted to snappingly couple to the at least one annular groove 16 provided on body 2 for defining, together with shoulder or abutment 15, a pair of axial locking elements adapted in use to sandwich the seat on the burner for thermocouple 1; in the example shown, body 2 is provided with two grooves 16a and 16b arranged at different axial distances from shoulder 15, so as to adapt thermocouple 1 to different burner models, and clip 25 is shaped like a cup spring. According to the method of the invention, the following steps are combined for manufacturing the above thermocouple 1.
  • the tube length 12 is formed ensuring that it is delimited by a side wall 13 being always less than 1 mm thick and preferably in the range between 0.5 and 0.8 mm, starting from a flat metal sheet; the tube length 12 is formed by plastically deforming and shearing such metal sheet forming, at the same time or thereafter, again by plastic deformation, at least the annular axial shoulder or abutment 15 on the side wall 13 of the tube length 12 and, at a predetermined axial distance from the axial abutment 15, the at least one annular groove 16 which, according to the invention, is obtained, by plastically deforming the side wall 13 towards the interior of the tube length 12; thereby, once shoulder 15 and grooves 16a, 16b have been made, body 2 is finished; at this step, it is essential for thickness S of the side wall 13 to be less than 1 mm, otherwise body 2 could not be shaped as desired. Moreover, a thickness S in the range between 0.5 and 0.8 mm imparts sufficient sturdiness to body 2 at the same time
  • the hot junction 3 is formed separately and it is axially inserted into body 2 so as to make " tip 4 exit from end 21 of body 2; such an end 21 is selected so as to be the farthest from the annular abutment 15 between the two ends 20 and 21. Finally, tip 4 is directly welded to the side wall 13 of body 2.
  • the tube length 12 is obtained by first drawing said metal sheet when it is still flat, so as to form a cup- shaped dead bush 30 (figure 3) delimited by the side wall 13 and by a flat bottom wall 31; and then shearing a through hole 32 through the flat bottom wall 31, so as to form the through seat 22 therewith for accommodating tip 4; during the drawing step, the axial abutment 15 is made on the side wall 13 since the side wall 13 of the tube length 12 is formed as an axial sequence of revolution surface segments of different outer diameter, actually forming the two cylindrical segments 18 and 19.
  • the side wall 13 is a continuous side wall formed as a single piece .
  • thermocouple 1 defined by the tube length 12 is obtained so that it defines the cup-shaped dead bush 30 delimited by the side wall 13 with the axial abutment 15 and by the flat bottom wall 31 provided with the through hole 32 which defines and forms the through seat 22 for accommodating tip 4.
  • FIGS 4, 5 show a possible variant of the thermocouple and of the method according to the invention. Similar or identical details to those already described are indicated by the same reference numerals for simplicity..
  • FIG 4 shows a thermocouple lb totally similar to thermocouple 1 in figure 1, where an electrically conducting body 2 which supports the hot junction 3 of the thermocouple is made by plastically deforming and shearing a sheet, so as to be delimited by a side wall 13 having a radial thickness of less than 1 mm.
  • body 2 of thermocouple la (figure 5) consists of a tube length 122 which is obtained by shearing and bending (e.g. obtained by rolling) of said flat metal sheet, so that the continuity of the side wall 13 is interrupted by a longitudinal junction 124 defined by opposite longitudinal edges 125, 126 of the sheared and bent sheet .
  • the side wall 13 is therefore defined by an axial sequence of both cylindrical and conical revolution surface segments, of different outer diameter, in particular a first cylindrical segment 127 which defines the end 21 of body 2 and the seat 22 therein, for accommodating tip 4, a truncated-cone segment 128 the larger base of which defines the axial shoulder or abutment 15 which in this case faces the side opposite to tip 4, while in thermocouple 1 it faces tip 4, a second cylindrical, segment 129 of larger diameter than segment 127 but smaller than segment 128, provided by plastic deformation towards the interior of the tube length 122, two paired annular grooves 16, and a last cylindrical segment 130 of larger diameter than segment 129.
  • Thermocouple lb further comprises a clip 250 shaped as a U-shaped fork spring which simultaneously couples to both grooves 16 and in use is intended to contrast shoulder 15 for sandwiching the seat of thermocouple lb on the burner it is intended for.
  • the hot junction 3 is made (figure 2) so that, upon the insertion into the conducting body 2 defined by the tube length 2 (or 122) , the end 10 of the conducting element 5 made of the second metal alloy protrudes into the tube length 12 (or 122) from the side opposite to tip 4 and the insulating element 7 which is made as a cylindrical insulating sheath made of glass fiber, is then inserted between the conducting element 5 and tip 4.
  • Thermocouple 1 (or lb) is completed by fastening the polarity wire 8 to the end 10 of the conducting element 5 (this operation is preferably carried ut before inserting the hot junction 3 into body 2) which protrudes into the tube length 12 (122), and by fastening the ground wire 11 to body 2; according to the invention, conductor 11 is directly welded outside the conducting body 2, at the end 20 of body 2 which is opposite to the end 21 provided with tip 4. In particular, wire 11 is directly welded on the side wall 13 of the tube length 12 (122) , securing it by a welding spot 41.

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  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
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Abstract

A method of manufacturing a thermocouple (1) including an electrically conducting body fixable in use to a burner of a cooking range and a hot junction (3) consisting of a tip made of a first conducting metal alloy, integrally carried by the body, and of a conducting element (5) made of a second metal alloy, accommodated and welded within the tip, wherein the body (2) is made from a flat sheet which is worked so as to form a tube length (12) therewith, a side wall (13) of which is less than 1 mm thick, and wherein at least one annular axial abutment (15) is formed on the side wall and, at a predetermined axial distance therefrom, at least one annular groove (16) is formed, obtained by plastically deforming the side wall towards the interior of the tube length; the hot junction (3) is then axially inserted into the tube length and welded to a first end (21) thereof.

Description

MANUFACTURING METHOD FOR A COOKING RANGE THERMOCOUPLE AND THERMOCOUPLE OBTAINED THEREWITH
TECHNICAL FIELD
The present invention relates to a manufacturing method for a thermocouple intended for a cooking range as well as to the thermocouple obtained therewith. Thermocouples of this type are normally installed on each burner of a cooking range and control the safety solenoid valve of the gas tap coupled to the burner.
BACKGROUND ART
The' thermocouples of the above type have an electrically conducting body made at numerical control by chip removal from an extruded tube or bar of a brass alloy, which body carries the so-called "hot junction" of the thermocouple at a first end, consisting of a tip made of a first metal alloy and intended to remain in use immersed in the flame generated by the burner, and of a conducting element made of a second metal alloy, welded to the tip at an end thereof and for the rest electrically insulated therefrom; a polarity wire is connected to such a second conducting element while a ground wire is connected to the body, which is mechanically and electrically connected to' the tip. An electro-motive force is thus generated at the terminals of the two wires, which keeps an electromagnet of the gas tap energized, thus allowing the gas supply to continue. If the flame goes off, the electro-motive force stops and the electromagnet interrupts the gas supply.
Therefore, the conducting body of the thermocouple has a dual function: on the one hand, it serves for allowing the thermocouple to be mounted to the burner, and to this end it is usually provided with gripping means defined by a hexagonal-section portion of the body, and with a thread adapted to receive a fastening nut in use; on the other hand, the conducting body belongs to the chain of resistors arranged in series between the hot junction and the "cold" junction of the thermocouple, represented by the end of the two wires. The lower the electrical resistance, the faster the thermocouple "response", Ji . e . the time elapsing from the onset of the flame after which the electro-motive force generated is capable of keeping the electromagnet energized.
The thermocouples currently available are relatively expensive, and complex and slow to be machined, because the body must be obtained by chip removal. Moreover, the body has a relatively large mass, which is required by its carrying functions, thus resulting in relatively long response times of the thermocouple, which are annoying for the user as, until the electro-motive force generated by the thermocouple is not sufficient for keeping the gas tap open, he/she must continue to press on the switch button. US2114446 teaches a thermocouple having a body defined by a copper tube length, totally unsuitable to be used in current cooking ranges.
DISCLOSURE OF INVENTIO
It is an object of the present invention to overcome such drawbacks by providing a method for manufacturing a thermocouple having very short response times, being easy and quick to carry out and with considerable saving over the known methods. Moreover, it is an object of the invention to provide a thermocouple made by means of such method, which has short response times and low production costs .
The present invention thus relates to a method for manufacturing a thermocouple of a burner of a cooking range of a household appliance as defined in claim 1, as well as to a thermocouple for a burner of a cooking range as defined in claim 5. In particular, the method of the invention provides for manufacturing the thermocouple body by first forming a tube length delimited by a side wall being less than 1 mm thick, from a flat metal sheet by plastically deforming and shearing the same metal sheet; and thereafter or at the same time, again by plastically deforming said side wall of the tube length, forming at least one annular axial abutment and, at a predetermined axial distance from the axial abutment, at least one annular groove obtained by plastically deforming the side wall towards the interior of the tube length.
The hot junction of the thermocouple is then formed and it is axially inserted into the body so as to make the tip exit from a first end of the body, away from the annular abutment, and the tip is welded to the side wall of the body.
A thermocouple is thus obtained, of the type comprising an electrically conducting body fixable in use to a burner of a cooking range; a hot junction consisting of a tip made of a first conducting metal alloy, integrally carried by the body and by a conducting element made of a second metal alloy, accommodated within the tip, welded to a first end thereof; an insulating element interposed between the tip and the conducting element made of the second metal alloy; a polarity wire connected to the conducting element made of the second metal alloy; and a ground wire directly connected to the conducting body; wherein the conducting body consists of a tube length made of a metal sheet which has been plastically deformed and sheared, and which is delimited by a side wall being less than 1 mm thick on which at least one annular axial abutment has been obtained and, at a predetermined axial distance from the axial abutment, at least one annular groove has been obtained by plastically deforming the side wall towards the interior of the tube length. The thermocouple further comprises an elastically deformable clip for fastening the body to the burner of the cooking range, adapted to be snappingly coupled to the at least one annular groove .
Thereby, the construction of the body is greatly simplified and made faster and less expensive; moreover, a consistent reduction in the body mass is obtained, with consequent large reduction in the response times of the thermocouple. Finally, the body is fastened to the burner without using nuts and threads, but in a quick manner, by sandwiching the mounting seat of the body on the burner between the annular axial abutment obtained on the body and the fastening clip, snappingly mounted in the at least one groove of the body. By obtaining one or more of said annular grooves, the same body may be used for thermocouples intended to be mounted to different burner models, having seats of a different thickness for the thermocouple.
BRIEF DESCRIPTION OF THE DRAWINGS
Further features and advantages of the present invention will become apparent from the following description of preferred embodiments thereof, made by way of a non- limiting example and with reference to the accompanying drawings, in which:
- figure 1 shows a longitudinal cutaway view of a thermocouple made according to the invention;
- figure 2 shows an enlarged scale view of a detail of the thermocouple in figure 1; and
figure 3 shows a further enlarged view of a component of the thermocouple in figure 1 at the end of one of the machining steps of the method according to the invention; and
figures 4, 5 show a perspective view of a possible thermocouple variant according to the invention and a component thereof at the end of one of the machining steps of a variant of the method according to the invention.
BEST MODE FOR CARRYING OUT THE INVENTION
With reference to figures 1 to 3 , reference numeral 1 indicates a thermocouple intended to equip, in a known manner, a burner of a cooking range of a household appliance (known and not shown for simplicity) .
Thermocouple 1 comprises an electrically conducting body 2 fixable in use to the burner of a cooking range; and a hot junction 3 consisting of a tip 4 made of a first conducting metal alloy, typically a NiCr9010 alloy (90% by weight nickel and 10% by weight chromium) , and of a conducting element 5 made of a second metal alloy, typically constantan (55-60% by weight copper and 40-45% by weight nickel) ; tip 4 is integrally carried by body 2 and the conducting element 5 is accommodated within tip 4, welded to a nose-shaped end 6 thereof.
Thermocouple 1 further comprises an insulating element 7 interposed between tip 4 and the conducting element 5 made of the second metal alloy; a polarity wire 8 provided with an insulating sheath 9 and connected to an end 10 of the conducting element 5 opposite to the end 6 of the tip to which element 5 is mechanically and electrically coupled by welding; and a ground wire 11 directly connected to the conducting body 2.
According to the main feature of the invention, and with particular reference to figure 3, the conducting body 2 consists of a tube length 12 made of a metal sheet, typically a brass sheet, which has been plastically deformed and sheared and which is delimited by a side wall 13.
Body 2 has a symmetry axis A and generally has an axial-symmetric shape and, according to ,a feature of the invention, the side wall 13 has a thickness S measured in the radial direction with respect to axis A always less than 1 mm and preferably in the range between 0.5 and 0.8 mm.
According to the invention, at least one annular axial shoulder or abutment 15 and at least one annular groove 16 have been obtained on the side wall 13 by plastic deformation; annular groove 16 has' been obtained at a predetermined axial distance from the axial abutment 15, by plastically deforming the side wall 13 towards the interior of the tube length 12.
In the practice, the side wall 13 of the tube length 12 consists of an axial sequence of revolution surface segments of different outer diameter, in the example shown in figures 1-3, of two cylindrical segments 18 and 19; two of these surface segments, immediately adjacent to each other, in particular segments 18, of smaller diameter, and 19, of larger diameter, due to the difference in diameter define the annular axial shoulder or abutment 15.
With its end away from shoulder 15, segment 19 defines a first end 20 of body 2 while, likewise, with its end away from shoulder 15, segment 18 defines a second .end 21 of body 2 provided with a through seat 22 for tip 4, a cylindrical side wall 23 of which is welded by a continuous or discontinuous bead 24 to the side wall 13.
Thermocouple 1 according to the invention further comprises an elastically deformable cli 25 for fastening body 2 to a burner of the cooking range; clip 25 is adapted to snappingly couple to the at least one annular groove 16 provided on body 2 for defining, together with shoulder or abutment 15, a pair of axial locking elements adapted in use to sandwich the seat on the burner for thermocouple 1; in the example shown, body 2 is provided with two grooves 16a and 16b arranged at different axial distances from shoulder 15, so as to adapt thermocouple 1 to different burner models, and clip 25 is shaped like a cup spring. According to the method of the invention, the following steps are combined for manufacturing the above thermocouple 1.
First, the tube length 12 is formed ensuring that it is delimited by a side wall 13 being always less than 1 mm thick and preferably in the range between 0.5 and 0.8 mm, starting from a flat metal sheet; the tube length 12 is formed by plastically deforming and shearing such metal sheet forming, at the same time or thereafter, again by plastic deformation, at least the annular axial shoulder or abutment 15 on the side wall 13 of the tube length 12 and, at a predetermined axial distance from the axial abutment 15, the at least one annular groove 16 which, according to the invention, is obtained, by plastically deforming the side wall 13 towards the interior of the tube length 12; thereby, once shoulder 15 and grooves 16a, 16b have been made, body 2 is finished; at this step, it is essential for thickness S of the side wall 13 to be less than 1 mm, otherwise body 2 could not be shaped as desired. Moreover, a thickness S in the range between 0.5 and 0.8 mm imparts sufficient sturdiness to body 2 at the same time .
Thereafter (or at the same time) , the hot junction 3 is formed separately and it is axially inserted into body 2 so as to make "tip 4 exit from end 21 of body 2; such an end 21 is selected so as to be the farthest from the annular abutment 15 between the two ends 20 and 21. Finally, tip 4 is directly welded to the side wall 13 of body 2.
According to the embodiment shown in figures 1-3, the tube length 12 is obtained by first drawing said metal sheet when it is still flat, so as to form a cup- shaped dead bush 30 (figure 3) delimited by the side wall 13 and by a flat bottom wall 31; and then shearing a through hole 32 through the flat bottom wall 31, so as to form the through seat 22 therewith for accommodating tip 4; during the drawing step, the axial abutment 15 is made on the side wall 13 since the side wall 13 of the tube length 12 is formed as an axial sequence of revolution surface segments of different outer diameter, actually forming the two cylindrical segments 18 and 19.
Therefore, according to this embodiment, the side wall 13 is a continuous side wall formed as a single piece .
According to the invention, therefore, the conducting body 2 of thermocouple 1 defined by the tube length 12 is obtained so that it defines the cup-shaped dead bush 30 delimited by the side wall 13 with the axial abutment 15 and by the flat bottom wall 31 provided with the through hole 32 which defines and forms the through seat 22 for accommodating tip 4.
Figures 4, 5 show a possible variant of the thermocouple and of the method according to the invention. Similar or identical details to those already described are indicated by the same reference numerals for simplicity..
Figure 4 shows a thermocouple lb totally similar to thermocouple 1 in figure 1, where an electrically conducting body 2 which supports the hot junction 3 of the thermocouple is made by plastically deforming and shearing a sheet, so as to be delimited by a side wall 13 having a radial thickness of less than 1 mm. However, body 2 of thermocouple la (figure 5) consists of a tube length 122 which is obtained by shearing and bending (e.g. obtained by rolling) of said flat metal sheet, so that the continuity of the side wall 13 is interrupted by a longitudinal junction 124 defined by opposite longitudinal edges 125, 126 of the sheared and bent sheet .
Therefore, in order to maintain an adequate stiffness of body 2, the latter has a more complex shape and the side wall 13 is therefore defined by an axial sequence of both cylindrical and conical revolution surface segments, of different outer diameter, in particular a first cylindrical segment 127 which defines the end 21 of body 2 and the seat 22 therein, for accommodating tip 4, a truncated-cone segment 128 the larger base of which defines the axial shoulder or abutment 15 which in this case faces the side opposite to tip 4, while in thermocouple 1 it faces tip 4, a second cylindrical, segment 129 of larger diameter than segment 127 but smaller than segment 128, provided by plastic deformation towards the interior of the tube length 122, two paired annular grooves 16, and a last cylindrical segment 130 of larger diameter than segment 129.
Thermocouple lb further comprises a clip 250 shaped as a U-shaped fork spring which simultaneously couples to both grooves 16 and in use is intended to contrast shoulder 15 for sandwiching the seat of thermocouple lb on the burner it is intended for.
According to both embodiments shown, . the hot junction 3 is made (figure 2) so that, upon the insertion into the conducting body 2 defined by the tube length 2 (or 122) , the end 10 of the conducting element 5 made of the second metal alloy protrudes into the tube length 12 (or 122) from the side opposite to tip 4 and the insulating element 7 which is made as a cylindrical insulating sheath made of glass fiber, is then inserted between the conducting element 5 and tip 4.
Thermocouple 1 (or lb) is completed by fastening the polarity wire 8 to the end 10 of the conducting element 5 (this operation is preferably carried ut before inserting the hot junction 3 into body 2) which protrudes into the tube length 12 (122), and by fastening the ground wire 11 to body 2; according to the invention, conductor 11 is directly welded outside the conducting body 2, at the end 20 of body 2 which is opposite to the end 21 provided with tip 4. In particular, wire 11 is directly welded on the side wall 13 of the tube length 12 (122) , securing it by a welding spot 41.

Claims

1. A method of manufacturing a thermocouple (1; lb) of the type comprising an electrically conducting body (2) fixable in use to a burner of a cooking range and a hot junction (3) consisting of a tip made of a first conducting metal alloy, integrally carried by the body, and" of a conducting element made of a second metal alloy, accommodated within the tip, welded to one end thereof, comprising the steps of :
- forming a tube length (12; 122) delimited by a side wall (13) being less than 1 mm thick starting from a flat metal sheet by plastically deforming and shearing said metal sheet ;
- again by plastically deforming said side wall (13) , forming at least one annular axial abutment (15) and, at a predetermined axial distance from the axial abutment, at least -one annular groove (16) obtained by plastically deforming the side wall (13) towards the interior of the tube length so as to make said body (2) ;
- forming said hot junction (3) and then axially inserting the same into the body so as to make the tip (4) exit from a first end of the body (2) ; and
- welding the tip (4) to the side wall (13) of the body; characterized in that said tube length (12) is obtained by first working said metal sheet so as to form a cup-shaped dead bush (30) delimited by said side wall (13) and by a flat bottom wall (31) ; and then shearing a through hole (32) through the flat bottom wall (31) , so as to obtain a through seat (22) for accommodating the tip (4) ; said axial abutment (15) being made on the side -wall (13) during said step of working the metal sheet.
2. A method according to claim 1, characterized in that said tube length (12) is obtained by drawing said metal sheet when it is still flat, so as to form said dead bush (30) .
3. A method according to claim 1, characterized in that said tube length (122) is obtained by shearing and bending said flat metal sheet, the continuity of said side wall (13) being interrupted by a longitudinal junction (124) defined by opposite longitudinal edges (125, 126) of the sheared and bent sheet .
4. A method according to one of the preceding claims, characterized in that said side wall (13) of the tube length is formed as an axial sequence of revolution surface segments (18, 19; 127, 128, 129, 130) of different outer diameter.
5. A method according to one of the preceding claims, characterized in that the hot junction (3) is made so that, upon the insertion into the conducting body (2) defined by said tube length, one end (10) of the conducting element (5) made of the second metal alloy protrudes into the tube length from the side opposite to, the tip (4) ; an insulating sheath (7) made of glass fiber being then inserted between" the conducting element (5) made of the second metal alloy and the tip. "
6. A method according to claim 3, characterized in that the thermocouple is completed by fixing a polarity conductor (8) to said end (10) of the conducting element made of the second metal alloy which protrudes into the tube length, and a ground conductor (11) which is directly welded outside the conductor body (2) , at a second end (20) of the body opposite to said first end (21) , directly onto said side wall (13) of the tube length.
7. A thermocouple (1; lb) of the type comprising: an electrically conducting body (2) fixable in use to a burner of a cooking range; a hot junction (3) consisting of a tip (4) made of a first conducting metal alloy, integrally carried by the body and by a conducting element (5) made of a second metal- alloy, accommodated within the tip, welded to a first end (6) thereof; an insulating element (7) interposed between the tip and the conducting element made of the second metal alloy; a polarity wire (8) connected to the conducting element made of the second metal alloy; and a ground wire (11) directly connected to the conducting body; characterized in that said conducting body (2) is a tube length (12; 122) made of a metal sheet which has been plastically deformed and- sheared, and which is delimited by a side wall (13) being less than 1 mm thick on which at least one annular axial abutment (15) has been obtained and, at a predetermined axial distance from the axial abutment, at least one annular groove (16) has been obtained by plastically deforming the side wall (13) towards the interior of the tube length; said tube length (12) having been obtained so that the same defines a cup- shaped dead bush (30) delimited by said side wall (13) with said axial abutment (15) and by a flat bottom wall (31) provided with a through hole (32) adapted to make a through seat (22) for accommodating the tip (4)
8. A thermocouple according to claim 7, characterized in that the side wall (13) of the tube length consists of an axial sequence of revolution surface segments (18, 19; 127, 128, 129, 130) of different outer diameter, two of said surface segments (18, 19; 128, 129) immediately adjacent to each other defining said annular axial abutment (15) .
9. A thermocouple according to claim 7 or 8, characterized in that said side wall (13) of the tube length defining said conducting body (2) is from 0.5 to 0.8 mm thick.
10. A thermocouple according to one of claims 7 to 9, characterized in that it further comprises an elastically deformable clip (25; 250) for fastening the body to a burner of a cooking range, adapted to be snappingly coupled to said at least one annular groove (16) .
PCT/IB2012/054013 2011-08-05 2012-08-06 Manufacturing method for a cooking range thermocouple and thermocouple obtained therewith WO2013021341A2 (en)

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EP12769721.7A EP2739907B1 (en) 2011-08-05 2012-08-06 Manufacturing method for a cooking range thermocouple and thermocouple obtained therewith

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IT000736A ITTO20110736A1 (en) 2011-08-05 2011-08-05 METHOD OF MANUFACTURING A THERMOCOUPLE FOR A COOKING AND THERMOCOUPLE PLAN SO IT IS OBTAINED
ITTO2011A000736 2011-08-05

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WO2015136483A1 (en) * 2014-03-13 2015-09-17 Castfutura Spa Thermocouple and method for making the same
WO2016157111A1 (en) * 2015-04-01 2016-10-06 Castfutura S.P.A. Thermocouple and method for fastening the same

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2015136483A1 (en) * 2014-03-13 2015-09-17 Castfutura Spa Thermocouple and method for making the same
WO2016157111A1 (en) * 2015-04-01 2016-10-06 Castfutura S.P.A. Thermocouple and method for fastening the same

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ITTO20110736A1 (en) 2013-02-06
WO2013021341A3 (en) 2013-04-11
EP2739907B1 (en) 2016-11-30
EP2739907A2 (en) 2014-06-11

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